The document provides guidance on properly using common best management practices (BMPs) to control sediment and erosion. It describes 10 BMPs, including silt fence, wattles, hydroseeding, check dams, catch basin inserts, sediment cages, riprap outlets, sediment traps, sweeping, and material site ditches. For each BMP, it explains the purpose, proper installation techniques, common failures if improperly used, and maintenance needs such as sediment removal. It emphasizes that combining BMPs is often most effective and that regular maintenance is essential.
Prayas, the word in Sanskrit means making an effort, attempt, try, exercising, and practicing some positive actions for the betterment of individual and the community as well.
Here, in Tenet, “Prayas” is entitled as an interim effort of Tenetians for betterment in professional, educational, cultural and social aspects of life. It includes different training, exercising and performing activities to share the best of a person’s thought with others.
In Prayas, presently we have several agendas like Prayas-1, the “share-your-knowledge” programme, exercising a power-point presentation in every Wednesday by an individual under a senior’s mentorship. This exercise also helps in improving our communication skill. In Prayas-2, “personality development” programme, we conduct language skill building classes for our Tenetians in every Monday evening. Apart from these, we are arranging several cultural activities by individual’s performances under Prayas-1 to enjoy environment with work.
We also have a few more sports activities already started to refresh our body and mind to enhance an overall growth for all of us to come under Prayas very shortly.
Prayas Session : Rain Water Harvesting by Soumalya Nandi
Groundwater recharge or deep drainage or deep percolation is a hydrologic process where water moves downward from surface water to groundwater. Recharge is the primary method through which water enters an aquifer. This process usually occurs in the vadose zone below plant roots and is often expressed as a flux to the water table surface. Recharge occurs both naturally (through the water cycle) and through anthropogenic processes (i.e., "artificial groundwater recharge"), where rainwater and or reclaimed water is routed to the subsurface.
AN EFFORT BY RACHIT ARORA. Water is an essential part of our life. WE should save water until we have some cheap mechanism that will convert seawater into pure water.
Advances in Hydraulic Structures, Rubber Dam-A way forwardIEI GSC
Presentation on Advances in Hydraulic Structures, Rubber Dam-A way forward by Dr I Satyanarayan Raju, Former Chief Engineers, CDO, GOAP at #33NCCE 33rd National Convention of Civil Engineers at #IEIGSC
There are many options and technologies available to apply the 3R concept in a watershed. During the Knowledge Exchange mission several 3R technologies that might be applied in the Kajiado area were introduced to the participants. Sander de Haas (PWN / SamSamWater) gave a presentation on several 3R technologies.
Combining Rainwater Harvesting with Water Featuresseanmullarkey
Combining Rainwater Harvesting with Water Features
Sean Mullarkey, Applied Water Technologies
Sustainable water features that captures, stores and utilizes rain water for more than looks. Harvested rainwater can be used
for watering plants, washing cars, topping off the pool and many other uses. Combining rainwater harvesting with a
decorative water feature provides habitat, healthy water and esthetics.
Prayas, the word in Sanskrit means making an effort, attempt, try, exercising, and practicing some positive actions for the betterment of individual and the community as well.
Here, in Tenet, “Prayas” is entitled as an interim effort of Tenetians for betterment in professional, educational, cultural and social aspects of life. It includes different training, exercising and performing activities to share the best of a person’s thought with others.
In Prayas, presently we have several agendas like Prayas-1, the “share-your-knowledge” programme, exercising a power-point presentation in every Wednesday by an individual under a senior’s mentorship. This exercise also helps in improving our communication skill. In Prayas-2, “personality development” programme, we conduct language skill building classes for our Tenetians in every Monday evening. Apart from these, we are arranging several cultural activities by individual’s performances under Prayas-1 to enjoy environment with work.
We also have a few more sports activities already started to refresh our body and mind to enhance an overall growth for all of us to come under Prayas very shortly.
Prayas Session : Rain Water Harvesting by Soumalya Nandi
Groundwater recharge or deep drainage or deep percolation is a hydrologic process where water moves downward from surface water to groundwater. Recharge is the primary method through which water enters an aquifer. This process usually occurs in the vadose zone below plant roots and is often expressed as a flux to the water table surface. Recharge occurs both naturally (through the water cycle) and through anthropogenic processes (i.e., "artificial groundwater recharge"), where rainwater and or reclaimed water is routed to the subsurface.
AN EFFORT BY RACHIT ARORA. Water is an essential part of our life. WE should save water until we have some cheap mechanism that will convert seawater into pure water.
Advances in Hydraulic Structures, Rubber Dam-A way forwardIEI GSC
Presentation on Advances in Hydraulic Structures, Rubber Dam-A way forward by Dr I Satyanarayan Raju, Former Chief Engineers, CDO, GOAP at #33NCCE 33rd National Convention of Civil Engineers at #IEIGSC
There are many options and technologies available to apply the 3R concept in a watershed. During the Knowledge Exchange mission several 3R technologies that might be applied in the Kajiado area were introduced to the participants. Sander de Haas (PWN / SamSamWater) gave a presentation on several 3R technologies.
Combining Rainwater Harvesting with Water Featuresseanmullarkey
Combining Rainwater Harvesting with Water Features
Sean Mullarkey, Applied Water Technologies
Sustainable water features that captures, stores and utilizes rain water for more than looks. Harvested rainwater can be used
for watering plants, washing cars, topping off the pool and many other uses. Combining rainwater harvesting with a
decorative water feature provides habitat, healthy water and esthetics.
Fara Zakery and Behnaz Quigley - Strategies Developed by a Public and a Priva...ACBSP Global Accreditation
Fara Zakery and Behnaz Quigley - Strategies Developed by a Public and a Private University in the U.S. Prepare Globally Competent Business Graduates to Navigate Careers in the Global Economy as Citizens of the World
Francisco G. Barroso-Tanoira - Helping others to learn: preparing for career ...ACBSP Global Accreditation
Francisco G. Barroso-Tanoira - Helping others to learn: preparing for career success through effective case study design and implementation in real job contexts
Understanding these 5 common reasons why basements flood will help prevent basement flooding in the future.
For more information visit PERMA-DRY: http://www.permadry.com
Persistence, choice of partners and dynamic entrepreneurial management prove to be critical factors in forming an innovative and successful collaborative partnership. This presentation documents the early stages of forging a successful global academic partnership, taking it from the boardroom to reality.
Curriculum, Community and Collaboration: A Business Case Study Beyond the Cla...ACBSP Global Accreditation
The triple bottom line of business sustainability, people, planet, and profits, can be expanded to include college courses, business organizations and the larger community. A local bank project about customer service helped students understand how business theories are put into practice.
Environmental Science Book as per the syllabus of University of Calcutta.
Erach Bharucha.
For Undergraduate Courses of all branches of Higher Education.
everything about secure landfilling along with some examples as well as some criteria of developing such landfills specially in case of hazardous waste
the present ppt describes about irrigation methods following from the ancient periods to up to now. the present ppt also describes about sprinkler and drip irrigation methods. it gives an elaborate knowledge on irrigation methods.
Wastewater treatment is a process used to remove contaminants from wastewater and convert it into an effluent that can be returned to the water cycle. Once returned to the water cycle, the effluent creates an acceptable impact on the environment or is reused for various purposes (called water reclamation).
2. 1. Environmental Effects:
a. Effect on fish – clogged spawning gravels, smothered eggs and fry, and gill abrasion
b. Effect on streams – decreased photosynthesis, increased temperature, dirty water
c. Effect on local area – clogged storm sewer systems, local flooding, dust pollution,
and filled in reservoirs, shipping channels, and harbors
2. Financial Effects:
a. Legal liabilities for damage from sediment (EPA: $37,500 per day, per violation; ADEC:
$500-100,000 plus $10,000 per day)
b. Penalties from non-permit compliance (consent decrees, third party suits, stop work orders)
c. Criminal sanctions (up to $10,000 fine and possible jail time)
Why Does Sediment and Erosion Control Matter?
3. 1. Source Control – also called erosion control, the goal is to prevent stormwater from removing and
transporting soil particles at your worksite. Source control BMPs work to prevent the problem.
Source control BMPs work to cover soil, stabilize soil, protect slopes, and preserve vegetation
2. Perimeter Control – also called sedimentation control, the goal is to prevent sediment-laden stormwater
runoff from leaving your worksite. Perimeter control BMPs work to treat the problem.
Perimeter control BMPs work to contain sediment-laden water, filter sediment-laden water, reduce runoff
velocity, and establish perimeter controls
What are the Goals of Sediment and Erosion Control?
4/2/2015 3Alaska DOT&PF
4. 1. Silt Fence:
• Silt fence is designed for sheet flows
• Silt fence is ineffective when it is improperly installed – it must be trenched in (at least 6 in. deep), reinforced
with stakes, and stakes must be positioned on the opposite side of the fence from where runoff will
approach
• Silt fence often fails, so it must be checked regularly and maintained – clean out sediment when it backs up
to 1/3 the height of the fence
• Often, one line of silt fence is ineffective; it takes multiple rows to effectively reduce the velocity of sheet
flows
Remember: silt fence is not to be used on slopes or across concentrated water flows – it is a limited BMP
best used for a temporary physical barrier to sediment and reducing the runoff velocities of overland flow
Proper Use of Common BMPs
5. 2. Wattles:
• Wattles are designed to reduce slope flow velocities by breaking up slope length and directing water flow
• Wattles are ineffective when installed improperly – they must be trenched and staked perpendicular to
the direction of runoff flow
• Wattles should be tightly abutted together and the ends (at the edge of the slope) should be tilted upward to
form a ‘smiley face’ that keeps water flowing toward the middle of the slope
• On low grade slopes, wattle can be spaced farther apart, but on steep slopes, wattle should be spaced
tightly in rows or replaced with a Rolled Erosion Control Product RECP (blanket or mat)
Remember: wattle on steep slopes is often not enough – wattles should be combined with another form of slope
erosion protection
Proper Use of Common BMPs
6. 3. Hydroseeding:
Hydroseeding is designed to grow new vegetation and to retain water and soil while protecting seeds
Hydroseeding is much more effective on an uneven and slightly compacted soil surface – slopes
should be track-walked (with tracks perpendicular to the slope) and hydroseeded more than once and from
more than one direction
Usually, more than one application from more than on direction is necessary to provide better cover
The vegetation grown from hydroseeding will help reduce runoff volumes, runoff velocities, and raindrop
impact energy while filtering sediment, reducing pollution, and retaining soil
Remember that regular watering the first two weeks after hydroseeding is critical to the success of establishing
vegetation!
Proper Use of Common BMPs
7. 4. Check Dams:
• Check dams are designed to reduce channel erosion by restricting the flow velocity
• Ideally, check dams should be made out of a material that helps to filter out sediment (loose rock [Type I or
II], fiber rolls, compost socks, bio bags, etc.)
• The toe of the upslope check dam should be equal to the height of the next check dam
• For a six foot or smaller (width) check dam, construct the center of the dam at least six inches lower
than the ends to act as a spillway for runoff and prevent water from flowing around the check dam and/or
eroding the bank
• Remove sediment accumulation behind the dam as needed to prevent damage to channel vegetation and
to allow the channel to drain through the dam
Remember to regularly inspect check dams to ensure they have not been breached, clogged with sediment, or
otherwise damaged
Proper Use of Common BMPs
8. Proper Use of Common BMPs
5. Catch Basin Inlet Protection (silt sacks or witches’ hats):
• Catch basin inlet protection involves using a temporary barrier to prevent and filter the flow of sediment and
debris into a storm drain or other stormwater conduit. An insert bag is a woven fabric bag installed below
inlet grates that is designed to capture fine particles
• Inlet bag material will last between three months and one year without replacement, depending on traffic
• Without regular maintenance (and removal of these devices when work is done), drains can become
blocked and cause flooding
Remember to check insert bags often – they don’t work when full of sediment. Insert bags can be cleaned and
re-used, as long as they have not deteriorated
9. 6. Sediment Cage:
• A sediment cage is designed to filter out sediment when placed over an open drain inlet
• Cages should be placed over drain inlets on the concrete aprons surrounding the grates with the skirt
tucked under the grate
• Water has to be able to pond around the cage and settle without over-topping the sediment cage or the
BMP will be ineffective
• Sediment piled up around the cage is a good sign that the cage is working; there should be little to no
sediment inside the trap
Remember to inspect regularly - cages should be replaced or cleaned whenever they are 1/3 the cage
height or become plugged with sediment!
Proper Use of Common BMPs
10. 7. Riprap Outlet Protection:
• Riprap outlet protection is designed to dissipate energy at the outlet of a conduit to prevent excessive
erosion (scour) from the discharge of high volume or high velocity runoff
• Riprap is ineffective unless installed properly – fill must be compacted, and then filter stone, fabric, or a
blanket should be placed to prevent subgrade erosion before installing riprap large enough to prevent
scour
• Use extra-strength filter fabrics, installed by continuously placing the upstream section of fabric a minimum
of one foot over the downstream section of fabric
• The outlet protection apron should be constructed with no slope along its length. There should be no
overfall at the end of the apron. The elevation of the downstream end of the apron should be equal to the
elevation of the receiving channel or adjacent ground
• The outlet protection apron should be located so that there are no bends in the horizontal alignment
Remember to remove sediment when it fills the voids between rocks!
Proper Use of Common BMPs
11. 8. Sediment Trap:
• Sediment traps are designed to allow sediment to settle out of runoff before entering receiving streams,
lakes, drainage systems, or the surrounding area
• Sediment traps are formed by excavating an area or by placing an earthen embankment across a low area
or drainage swale. An outlet or spillway is often constructed using large stones or aggregate to slow the
release of runoff
• Per the EPA, the minimum storage capacity of a sediment trap should be 3,6003 per acre of total drainage
area
• When excavating an area for a sediment trap, make sure the side slopes are no steeper than 2:1 and the
embankment height no more than five feet from the original ground surface
• Check the depth of the spillway and maintain it at a minimum of 1.5 feet below the low point of the trap
embankment
Remember to remove sediment when the basin reaches about 50% sediment capacity
Proper Use of Common BMPs
12. 9. Sweeping:
• Sweeping is designed to remove fine particles from roads and other paved surfaces and trap them with an
exhaust air filter to reduce discharges to air and stormwater
• Pre-wet roads and exposed soils to improve effectiveness
• Treat areas early in the day if they appear dry and dusty. Early treatment prevents problems later in the
day as vehicle traffic and temperatures increase
• Adjust brooms regularly to maximize efficiency of sweeping operations
• If the filter is not fine enough or well-contained enough, materials that the vacuum picks up will be dispersed
into the air
Remember to check and change filters to make sure that fine particles are property contained!
Proper Use of Common BMPs
13. 10. Material Site Ditches/Trenches:
• Ditches/trenches are designed to capture runoff before it leaves the material stockpile area
• Dig ditches/trenches and then use the excavated material to construct a berm on the downhill side
• The entrance to the material stockpile should be on the uphill side
• Line ditches/trenches with permanent stabilization. Place riprap or line channel with blankets or plastics
• Keep excavated sand/soil and other materials at least two feet from trench edges
Remember to remove accumulated sediment from ditches/trenches when they are 50% full!
Proper Use of Common BMPs
14. A flip book made to aid in choosing appropriate BMPs for field work has been developed and is being distributed
to each station. The flip book divides BMPs by type/location:
1. Preservation and Use of Vegetation
2. Steep slopes
3. Inlets & Outlets
4. Flow Control
5. Dust Control
6. Material Stockpiles
7. In-water
BMP Flip Book
15. Features of the BMP flip book:
• BMP details and installation tips
• BMP installation figures and drawings
• BMP photos and recommendations
• Contact information for central region
environmental staff
• Waterproof pages
BMP Flip Book
16. • Often, the most effective stormwater control measures are a combination of two or more BMPs
• Perimeter control BMPs are not nearly as effective as source control BMPs
• Spacing for velocity control BMPs is dependent on the barrier height; the lower the barrier height, the closer
together the rows of BMPs should be installed
• Wattles, fiber rolls, socks, etc. can float – they must be trenched and staked on bare ground and they must
be weighted or replaced with a more effective measure on asphalt/concrete/impervious surfaces
• There is no such thing as a BMP that requires no maintenance or follow up!
• If you’re not sure what BMPs to use, just call or email us – we’re happy to help
BMP Tips